def os_test_file(file_path, expression="-e"): """ Run a shell 'test' command on a file. Args: file_path (str): Path to the file to be tested expression (str): Test expression [-e = exists] Returns: (bool) True if test is successful. """ check_param_type("file_path", file_path, str) check_param_type("expression", expression, str) if os.path.exists(file_path): cmd = "test {0} {1}".format(expression, file_path) rtn = OSCommand(cmd).run() log_debug("Test cmd = {0}; rtn = {1}".format(cmd, rtn.result())) return rtn.result() == 0 else: log_error("File {0} does not exist".format(file_path)) return False
def os_simple_command(os_cmd, run_dir=None): """ Perform an simple os command and return a tuple of the (rtncode, rtnoutput). NOTE: Simple command cannot have pipes or redirects Args: os_cmd (str): Command to run run_dir (str): Directory where to run the command; if None (defaut) current working directory is used. Returns: (tuple) Returns a tuple of the (rtncode, rtnoutput) of types (int, str) """ check_param_type("os_cmd", os_cmd, str) if run_dir is not None: check_param_type("run_dir", run_dir, str) rtn = OSCommand(os_cmd, set_cwd=run_dir).run() rtn_data = (rtn.result(), rtn.output()) return rtn_data
def run_sst(self, sdl_file, out_file, err_file=None, set_cwd=None, mpi_out_files="", other_args="", num_ranks=None, num_threads=None, global_args=None, timeout_sec=60): """ Launch sst with with the command line and send output to the output file. The SST execution will be monitored for result errors and timeouts. On an error or timeout, a SSTTestCase.assert() will be generated indicating the details of the failure. Args: sdl_file (str): The FilePath to the test SDL (python) file. out_file (str): The FilePath to the finalized output file. err_file (str): The FilePath to the finalized error file. Default = same directory as the output file. mpi_out_files (str): The FilePath to the mpi run output files. These will be merged into the out_file at the end of a multi-rank run. other_args (str): Any other arguments used in the SST cmd that the caller wishes to use. num_ranks (int): The number of ranks to run SST with. num_threads (int): The number of threads to run SST with. global_args (str): Global Arguments provided from test engine args timeout_sec (int): Allowed runtime in seconds """ # NOTE: We cannot set the default of param to the global variable due to # oddities on how this class loads, so we do it here. if num_ranks is None: num_ranks = test_engine_globals.TESTENGINE_SSTRUN_NUMRANKS if num_threads is None: num_threads = test_engine_globals.TESTENGINE_SSTRUN_NUMTHREADS if global_args is None: global_args = test_engine_globals.TESTENGINE_SSTRUN_GLOBALARGS # Make sure arguments are of valid types check_param_type("sdl_file", sdl_file, str) check_param_type("out_file", out_file, str) if err_file is not None: check_param_type("err_file", out_file, str) if set_cwd is not None: check_param_type("set_cwd", set_cwd, str) check_param_type("mpi_out_files", mpi_out_files, str) check_param_type("other_args", other_args, str) if num_ranks is not None: check_param_type("num_ranks", num_ranks, int) if num_threads is not None: check_param_type("num_threads", num_threads, int) if global_args is not None: check_param_type("global_args", global_args, str) if not (isinstance(timeout_sec, (int, float)) and not isinstance(timeout_sec, bool)): raise ValueError("ERROR: Timeout_sec must be a postive int or a float") # Make sure sdl file is exists and is a file if not os.path.exists(sdl_file) or not os.path.isfile(sdl_file): log_error("sdl_file {0} does not exist".format(sdl_file)) # Figure out a name for the mpi_output files if the default is provided if mpi_out_files == "": mpiout_filename = "{0}.testfile".format(out_file) else: mpiout_filename = mpi_out_files # Set the initial os launch command for sst. # If multi-threaded, include the number of threads if num_threads > 1: oscmd = "sst -n {0} {1} {2} {3}".format(num_threads, global_args, other_args, sdl_file) else: oscmd = "sst {0} {1} {2}".format(global_args, other_args, sdl_file) # Update the os launch command if we are running multi-rank num_cores = host_os_get_num_cores_on_system() # Perform any multi-rank checks/setup mpi_avail = False numa_param = "" if num_ranks > 1: # Check to see if mpirun is available rtn = os.system("which mpirun > /dev/null 2>&1") if rtn == 0: mpi_avail = True numa_param = "-map-by numa:PE={0}".format(num_threads) oscmd = "mpirun -np {0} {1} -output-filename {2} {3}".format(num_ranks, numa_param, mpiout_filename, oscmd) # Identify the working directory that we are launching SST from final_wd = os.getcwd() if set_cwd is not None: final_wd = os.path.abspath(set_cwd) # Log some debug info on the launch of SST log_debug((("-- SST Launch Command (In Dir={0}; Ranks:{1}; Threads:{2};") + (" Num Cores:{3}) = {4}")).format(final_wd, num_ranks, num_threads, num_cores, oscmd)) # Check for OpenMPI if num_ranks > 1 and mpi_avail is False: log_fatal("OpenMPI IS NOT FOUND/AVAILABLE") # Launch SST rtn = OSCommand(oscmd, output_file_path = out_file, error_file_path = err_file, set_cwd = set_cwd).run(timeout_sec=timeout_sec) if num_ranks > 1: testing_merge_mpi_files("{0}*".format(mpiout_filename), mpiout_filename, out_file) # Look for runtime error conditions err_str = "SST Timed-Out ({0} secs) while running {1}".format(timeout_sec, oscmd) self.assertFalse(rtn.timeout(), err_str) err_str = "SST returned {0}; while running {1}".format(rtn.result(), oscmd) self.assertEqual(rtn.result(), 0, err_str)